Effects of alkyl side chain modification of coenzyme Q10 on mitochondrial respiratory chain function and cytoprotection

David M. Fash; Omar Khdour; Sunil J. Sahdeo; Ruth Goldschmidt; Jennifer Jaruvangsanti; Sriloy Dey; Pablo M. Arce; Valérie C. Collin; Gino A. Cortopassi; Sidney Hecht

doi:10.1016/j.bmc.2013.01.075

Effects of alkyl side chain modification of coenzyme Q₁₀ on mitochondrial respiratory chain function and cytoprotection

David M. Fash, Omar Khdour, Sunil J. Sahdeo, Ruth Goldschmidt, Jennifer Jaruvangsanti, Sriloy Dey, Pablo M. Arce, Valérie C. Collin, Gino A. Cortopassi, Sidney Hecht

Research output: Contribution to journal › Article › peer-review

20 Scopus citations

Abstract

The effect of the alkyl side chain length of coenzyme Q₁₀ on mitochondrial respiratory chain function has been investigated by the use of synthetic ubiquinone derivatives. Three analogues (3, 4 and 6) were identified that exhibited significantly improved effects on mitochondrial oxygen consumption and mitochondrial membrane potential, and also conferred significant cytoprotection on cultured mammalian cells in which glutathione had been depleted by treatment with diethyl maleate. The analogues also exhibited lesser inhibition of the electron transport chain than idebenone. The results obtained provide guidance for the design of CoQ₁₀ analogues with improved activity compared to that of idebenone (1), the latter of which is undergoing evaluation in the clinic as a therapeutic agent.

Original language	English (US)
Pages (from-to)	2346-2354
Number of pages	9
Journal	Bioorganic and Medicinal Chemistry
Volume	21
Issue number	8
DOIs	https://doi.org/10.1016/j.bmc.2013.01.075
State	Published - Apr 15 2013

Keywords

Coenzyme Q
Cytoprotection
Electron transport chain
Oxygen consumption
Reactive oxygen species

ASJC Scopus subject areas

Biochemistry
Molecular Medicine
Molecular Biology
Pharmaceutical Science
Drug Discovery
Clinical Biochemistry
Organic Chemistry

Access to Document

10.1016/j.bmc.2013.01.075

Cite this

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title = "Effects of alkyl side chain modification of coenzyme Q10 on mitochondrial respiratory chain function and cytoprotection",

abstract = "The effect of the alkyl side chain length of coenzyme Q10 on mitochondrial respiratory chain function has been investigated by the use of synthetic ubiquinone derivatives. Three analogues (3, 4 and 6) were identified that exhibited significantly improved effects on mitochondrial oxygen consumption and mitochondrial membrane potential, and also conferred significant cytoprotection on cultured mammalian cells in which glutathione had been depleted by treatment with diethyl maleate. The analogues also exhibited lesser inhibition of the electron transport chain than idebenone. The results obtained provide guidance for the design of CoQ10 analogues with improved activity compared to that of idebenone (1), the latter of which is undergoing evaluation in the clinic as a therapeutic agent.",

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AU - Fash, David M.

AU - Khdour, Omar

AU - Sahdeo, Sunil J.

AU - Goldschmidt, Ruth

AU - Jaruvangsanti, Jennifer

AU - Dey, Sriloy

AU - Arce, Pablo M.

AU - Collin, Valérie C.

AU - Cortopassi, Gino A.

AU - Hecht, Sidney

PY - 2013/4/15

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AB - The effect of the alkyl side chain length of coenzyme Q10 on mitochondrial respiratory chain function has been investigated by the use of synthetic ubiquinone derivatives. Three analogues (3, 4 and 6) were identified that exhibited significantly improved effects on mitochondrial oxygen consumption and mitochondrial membrane potential, and also conferred significant cytoprotection on cultured mammalian cells in which glutathione had been depleted by treatment with diethyl maleate. The analogues also exhibited lesser inhibition of the electron transport chain than idebenone. The results obtained provide guidance for the design of CoQ10 analogues with improved activity compared to that of idebenone (1), the latter of which is undergoing evaluation in the clinic as a therapeutic agent.

KW - Coenzyme Q

KW - Cytoprotection

KW - Electron transport chain

KW - Oxygen consumption

KW - Reactive oxygen species

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